xref: /openbmc/qemu/qapi/misc-target.json (revision c09124dc)
1# -*- Mode: Python -*-
2# vim: filetype=python
3#
4
5##
6# @RTC_CHANGE:
7#
8# Emitted when the guest changes the RTC time.
9#
10# @offset: offset between base RTC clock (as specified by -rtc base), and
11#          new RTC clock value
12#
13# Note: This event is rate-limited.
14#
15# Since: 0.13
16#
17# Example:
18#
19# <-   { "event": "RTC_CHANGE",
20#        "data": { "offset": 78 },
21#        "timestamp": { "seconds": 1267020223, "microseconds": 435656 } }
22#
23##
24{ 'event': 'RTC_CHANGE',
25  'data': { 'offset': 'int' },
26  'if': { 'any': [ 'TARGET_ALPHA',
27                   'TARGET_ARM',
28                   'TARGET_HPPA',
29                   'TARGET_I386',
30                   'TARGET_MIPS',
31                   'TARGET_MIPS64',
32                   'TARGET_PPC',
33                   'TARGET_PPC64',
34                   'TARGET_S390X',
35                   'TARGET_SH4',
36                   'TARGET_SPARC' ] } }
37
38##
39# @rtc-reset-reinjection:
40#
41# This command will reset the RTC interrupt reinjection backlog.
42# Can be used if another mechanism to synchronize guest time
43# is in effect, for example QEMU guest agent's guest-set-time
44# command.
45#
46# Since: 2.1
47#
48# Example:
49#
50# -> { "execute": "rtc-reset-reinjection" }
51# <- { "return": {} }
52#
53##
54{ 'command': 'rtc-reset-reinjection',
55  'if': 'TARGET_I386' }
56
57
58##
59# @SevState:
60#
61# An enumeration of SEV state information used during @query-sev.
62#
63# @uninit: The guest is uninitialized.
64#
65# @launch-update: The guest is currently being launched; plaintext data and
66#                 register state is being imported.
67#
68# @launch-secret: The guest is currently being launched; ciphertext data
69#                 is being imported.
70#
71# @running: The guest is fully launched or migrated in.
72#
73# @send-update: The guest is currently being migrated out to another machine.
74#
75# @receive-update: The guest is currently being migrated from another machine.
76#
77# Since: 2.12
78##
79{ 'enum': 'SevState',
80  'data': ['uninit', 'launch-update', 'launch-secret', 'running',
81           'send-update', 'receive-update' ],
82  'if': 'TARGET_I386' }
83
84##
85# @SevInfo:
86#
87# Information about Secure Encrypted Virtualization (SEV) support
88#
89# @enabled: true if SEV is active
90#
91# @api-major: SEV API major version
92#
93# @api-minor: SEV API minor version
94#
95# @build-id: SEV FW build id
96#
97# @policy: SEV policy value
98#
99# @state: SEV guest state
100#
101# @handle: SEV firmware handle
102#
103# Since: 2.12
104##
105{ 'struct': 'SevInfo',
106    'data': { 'enabled': 'bool',
107              'api-major': 'uint8',
108              'api-minor' : 'uint8',
109              'build-id' : 'uint8',
110              'policy' : 'uint32',
111              'state' : 'SevState',
112              'handle' : 'uint32'
113            },
114  'if': 'TARGET_I386'
115}
116
117##
118# @query-sev:
119#
120# Returns information about SEV
121#
122# Returns: @SevInfo
123#
124# Since: 2.12
125#
126# Example:
127#
128# -> { "execute": "query-sev" }
129# <- { "return": { "enabled": true, "api-major" : 0, "api-minor" : 0,
130#                  "build-id" : 0, "policy" : 0, "state" : "running",
131#                  "handle" : 1 } }
132#
133##
134{ 'command': 'query-sev', 'returns': 'SevInfo',
135  'if': 'TARGET_I386' }
136
137
138##
139# @SevLaunchMeasureInfo:
140#
141# SEV Guest Launch measurement information
142#
143# @data: the measurement value encoded in base64
144#
145# Since: 2.12
146#
147##
148{ 'struct': 'SevLaunchMeasureInfo', 'data': {'data': 'str'},
149  'if': 'TARGET_I386' }
150
151##
152# @query-sev-launch-measure:
153#
154# Query the SEV guest launch information.
155#
156# Returns: The @SevLaunchMeasureInfo for the guest
157#
158# Since: 2.12
159#
160# Example:
161#
162# -> { "execute": "query-sev-launch-measure" }
163# <- { "return": { "data": "4l8LXeNlSPUDlXPJG5966/8%YZ" } }
164#
165##
166{ 'command': 'query-sev-launch-measure', 'returns': 'SevLaunchMeasureInfo',
167  'if': 'TARGET_I386' }
168
169
170##
171# @SevCapability:
172#
173# The struct describes capability for a Secure Encrypted Virtualization
174# feature.
175#
176# @pdh:  Platform Diffie-Hellman key (base64 encoded)
177#
178# @cert-chain:  PDH certificate chain (base64 encoded)
179#
180# @cbitpos: C-bit location in page table entry
181#
182# @reduced-phys-bits: Number of physical Address bit reduction when SEV is
183#                     enabled
184#
185# Since: 2.12
186##
187{ 'struct': 'SevCapability',
188  'data': { 'pdh': 'str',
189            'cert-chain': 'str',
190            'cbitpos': 'int',
191            'reduced-phys-bits': 'int'},
192  'if': 'TARGET_I386' }
193
194##
195# @query-sev-capabilities:
196#
197# This command is used to get the SEV capabilities, and is supported on AMD
198# X86 platforms only.
199#
200# Returns: SevCapability objects.
201#
202# Since: 2.12
203#
204# Example:
205#
206# -> { "execute": "query-sev-capabilities" }
207# <- { "return": { "pdh": "8CCDD8DDD", "cert-chain": "888CCCDDDEE",
208#                  "cbitpos": 47, "reduced-phys-bits": 5}}
209#
210##
211{ 'command': 'query-sev-capabilities', 'returns': 'SevCapability',
212  'if': 'TARGET_I386' }
213
214##
215# @sev-inject-launch-secret:
216#
217# This command injects a secret blob into memory of SEV guest.
218#
219# @packet-header: the launch secret packet header encoded in base64
220#
221# @secret: the launch secret data to be injected encoded in base64
222#
223# @gpa: the guest physical address where secret will be injected.
224#
225# Since: 6.0
226#
227##
228{ 'command': 'sev-inject-launch-secret',
229  'data': { 'packet-header': 'str', 'secret': 'str', '*gpa': 'uint64' },
230  'if': 'TARGET_I386' }
231
232##
233# @dump-skeys:
234#
235# Dump guest's storage keys
236#
237# @filename: the path to the file to dump to
238#
239# This command is only supported on s390 architecture.
240#
241# Since: 2.5
242#
243# Example:
244#
245# -> { "execute": "dump-skeys",
246#      "arguments": { "filename": "/tmp/skeys" } }
247# <- { "return": {} }
248#
249##
250{ 'command': 'dump-skeys',
251  'data': { 'filename': 'str' },
252  'if': 'TARGET_S390X' }
253
254##
255# @GICCapability:
256#
257# The struct describes capability for a specific GIC (Generic
258# Interrupt Controller) version. These bits are not only decided by
259# QEMU/KVM software version, but also decided by the hardware that
260# the program is running upon.
261#
262# @version: version of GIC to be described. Currently, only 2 and 3
263#           are supported.
264#
265# @emulated: whether current QEMU/hardware supports emulated GIC
266#            device in user space.
267#
268# @kernel: whether current QEMU/hardware supports hardware
269#          accelerated GIC device in kernel.
270#
271# Since: 2.6
272##
273{ 'struct': 'GICCapability',
274  'data': { 'version': 'int',
275            'emulated': 'bool',
276            'kernel': 'bool' },
277  'if': 'TARGET_ARM' }
278
279##
280# @query-gic-capabilities:
281#
282# This command is ARM-only. It will return a list of GICCapability
283# objects that describe its capability bits.
284#
285# Returns: a list of GICCapability objects.
286#
287# Since: 2.6
288#
289# Example:
290#
291# -> { "execute": "query-gic-capabilities" }
292# <- { "return": [{ "version": 2, "emulated": true, "kernel": false },
293#                 { "version": 3, "emulated": false, "kernel": true } ] }
294#
295##
296{ 'command': 'query-gic-capabilities', 'returns': ['GICCapability'],
297  'if': 'TARGET_ARM' }
298
299
300##
301# @SevAttestationReport:
302#
303# The struct describes attestation report for a Secure Encrypted Virtualization
304# feature.
305#
306# @data:  guest attestation report (base64 encoded)
307#
308#
309# Since: 6.1
310##
311{ 'struct': 'SevAttestationReport',
312  'data': { 'data': 'str'},
313  'if': 'TARGET_I386' }
314
315##
316# @query-sev-attestation-report:
317#
318# This command is used to get the SEV attestation report, and is supported on AMD
319# X86 platforms only.
320#
321# @mnonce: a random 16 bytes value encoded in base64 (it will be included in report)
322#
323# Returns: SevAttestationReport objects.
324#
325# Since: 6.1
326#
327# Example:
328#
329# -> { "execute" : "query-sev-attestation-report", "arguments": { "mnonce": "aaaaaaa" } }
330# <- { "return" : { "data": "aaaaaaaabbbddddd"} }
331#
332##
333{ 'command': 'query-sev-attestation-report', 'data': { 'mnonce': 'str' },
334  'returns': 'SevAttestationReport',
335  'if': 'TARGET_I386' }
336
337##
338# @SGXInfo:
339#
340# Information about intel Safe Guard eXtension (SGX) support
341#
342# @sgx: true if SGX is supported
343#
344# @sgx1: true if SGX1 is supported
345#
346# @sgx2: true if SGX2 is supported
347#
348# @flc: true if FLC is supported
349#
350# @section-size: The EPC section size for guest
351#
352# Since: 6.2
353##
354{ 'struct': 'SGXInfo',
355  'data': { 'sgx': 'bool',
356            'sgx1': 'bool',
357            'sgx2': 'bool',
358            'flc': 'bool',
359            'section-size': 'uint64'},
360   'if': 'TARGET_I386' }
361
362##
363# @query-sgx:
364#
365# Returns information about SGX
366#
367# Returns: @SGXInfo
368#
369# Since: 6.2
370#
371# Example:
372#
373# -> { "execute": "query-sgx" }
374# <- { "return": { "sgx": true, "sgx1" : true, "sgx2" : true,
375#                  "flc": true, "section-size" : 0 } }
376#
377##
378{ 'command': 'query-sgx', 'returns': 'SGXInfo', 'if': 'TARGET_I386' }
379
380##
381# @query-sgx-capabilities:
382#
383# Returns information from host SGX capabilities
384#
385# Returns: @SGXInfo
386#
387# Since: 6.2
388#
389# Example:
390#
391# -> { "execute": "query-sgx-capabilities" }
392# <- { "return": { "sgx": true, "sgx1" : true, "sgx2" : true,
393#                  "flc": true, "section-size" : 0 } }
394#
395##
396{ 'command': 'query-sgx-capabilities', 'returns': 'SGXInfo', 'if': 'TARGET_I386' }
397